| // Copyright 2020 The Tint Authors. |
| // |
| // Licensed under the Apache License, Version 2.0 (the "License"); |
| // you may not use this file except in compliance with the License. |
| // You may obtain a copy of the License at |
| // |
| // http://www.apache.org/licenses/LICENSE-2.0 |
| // |
| // Unless required by applicable law or agreed to in writing, software |
| // distributed under the License is distributed on an "AS IS" BASIS, |
| // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
| // See the License for the specific language governing permissions and |
| // limitations under the License. |
| |
| #ifndef SRC_WRITER_SPIRV_BUILDER_H_ |
| #define SRC_WRITER_SPIRV_BUILDER_H_ |
| |
| #include <string> |
| #include <unordered_map> |
| #include <unordered_set> |
| #include <vector> |
| |
| #include "spirv/unified1/spirv.h" |
| #include "src/ast/assignment_statement.h" |
| #include "src/ast/bitcast_expression.h" |
| #include "src/ast/break_statement.h" |
| #include "src/ast/continue_statement.h" |
| #include "src/ast/discard_statement.h" |
| #include "src/ast/if_statement.h" |
| #include "src/ast/interpolate_decoration.h" |
| #include "src/ast/loop_statement.h" |
| #include "src/ast/return_statement.h" |
| #include "src/ast/switch_statement.h" |
| #include "src/ast/unary_op_expression.h" |
| #include "src/ast/variable_decl_statement.h" |
| #include "src/program_builder.h" |
| #include "src/scope_stack.h" |
| #include "src/sem/intrinsic.h" |
| #include "src/sem/storage_texture_type.h" |
| #include "src/writer/spirv/function.h" |
| #include "src/writer/spirv/scalar_constant.h" |
| |
| namespace tint { |
| |
| // Forward declarations |
| namespace sem { |
| class Call; |
| class Reference; |
| class TypeConstructor; |
| class TypeConversion; |
| } // namespace sem |
| |
| namespace writer { |
| namespace spirv { |
| |
| /// The result of sanitizing a program for generation. |
| struct SanitizedResult { |
| /// The sanitized program. |
| Program program; |
| }; |
| |
| /// Sanitize a program in preparation for generating SPIR-V. |
| /// @param emit_vertex_point_size `true` to emit a vertex point size builtin |
| /// @param disable_workgroup_init `true` to disable workgroup memory zero |
| /// @returns the sanitized program and any supplementary information |
| SanitizedResult Sanitize(const Program* program, |
| bool emit_vertex_point_size = false, |
| bool disable_workgroup_init = false); |
| |
| /// Builder class to create SPIR-V instructions from a module. |
| class Builder { |
| public: |
| /// Contains information for generating accessor chains |
| struct AccessorInfo { |
| AccessorInfo(); |
| ~AccessorInfo(); |
| |
| /// The ID of the current chain source. The chain source may change as we |
| /// evaluate the access chain. The chain source always points to the ID |
| /// which we will use to evaluate the current set of accessors. This maybe |
| /// the original variable, or maybe an intermediary if we had to evaulate |
| /// the access chain early (in the case of a swizzle of an access chain). |
| uint32_t source_id; |
| /// The type of the current chain source. This type matches the deduced |
| /// result_type of the current source defined above. |
| const sem::Type* source_type; |
| /// A list of access chain indices to emit. Note, we _only_ have access |
| /// chain indices if the source is reference. |
| std::vector<uint32_t> access_chain_indices; |
| }; |
| |
| /// Constructor |
| /// @param program the program |
| explicit Builder(const Program* program); |
| ~Builder(); |
| |
| /// Generates the SPIR-V instructions for the given program |
| /// @returns true if the SPIR-V was successfully built |
| bool Build(); |
| |
| /// @returns the error string or blank if no error was reported. |
| const std::string& error() const { return error_; } |
| /// @returns true if the builder encountered an error |
| bool has_error() const { return !error_.empty(); } |
| |
| /// @returns the number of uint32_t's needed to make up the results |
| uint32_t total_size() const; |
| |
| /// @returns the id bound for this program |
| uint32_t id_bound() const { return next_id_; } |
| |
| /// @returns the next id to be used |
| uint32_t next_id() { |
| auto id = next_id_; |
| next_id_ += 1; |
| return id; |
| } |
| |
| /// Iterates over all the instructions in the correct order and calls the |
| /// given callback |
| /// @param cb the callback to execute |
| void iterate(std::function<void(const Instruction&)> cb) const; |
| |
| /// Adds an instruction to the list of capabilities, if the capability |
| /// hasn't already been added. |
| /// @param cap the capability to set |
| void push_capability(uint32_t cap); |
| /// @returns the capabilities |
| const InstructionList& capabilities() const { return capabilities_; } |
| /// Adds an instruction to the extensions |
| /// @param op the op to set |
| /// @param operands the operands for the instruction |
| void push_extension(spv::Op op, const OperandList& operands) { |
| extensions_.push_back(Instruction{op, operands}); |
| } |
| /// @returns the extensions |
| const InstructionList& extensions() const { return extensions_; } |
| /// Adds an instruction to the ext import |
| /// @param op the op to set |
| /// @param operands the operands for the instruction |
| void push_ext_import(spv::Op op, const OperandList& operands) { |
| ext_imports_.push_back(Instruction{op, operands}); |
| } |
| /// @returns the ext imports |
| const InstructionList& ext_imports() const { return ext_imports_; } |
| /// Adds an instruction to the memory model |
| /// @param op the op to set |
| /// @param operands the operands for the instruction |
| void push_memory_model(spv::Op op, const OperandList& operands) { |
| memory_model_.push_back(Instruction{op, operands}); |
| } |
| /// @returns the memory model |
| const InstructionList& memory_model() const { return memory_model_; } |
| /// Adds an instruction to the entry points |
| /// @param op the op to set |
| /// @param operands the operands for the instruction |
| void push_entry_point(spv::Op op, const OperandList& operands) { |
| entry_points_.push_back(Instruction{op, operands}); |
| } |
| /// @returns the entry points |
| const InstructionList& entry_points() const { return entry_points_; } |
| /// Adds an instruction to the execution modes |
| /// @param op the op to set |
| /// @param operands the operands for the instruction |
| void push_execution_mode(spv::Op op, const OperandList& operands) { |
| execution_modes_.push_back(Instruction{op, operands}); |
| } |
| /// @returns the execution modes |
| const InstructionList& execution_modes() const { return execution_modes_; } |
| /// Adds an instruction to the debug |
| /// @param op the op to set |
| /// @param operands the operands for the instruction |
| void push_debug(spv::Op op, const OperandList& operands) { |
| debug_.push_back(Instruction{op, operands}); |
| } |
| /// @returns the debug instructions |
| const InstructionList& debug() const { return debug_; } |
| /// Adds an instruction to the types |
| /// @param op the op to set |
| /// @param operands the operands for the instruction |
| void push_type(spv::Op op, const OperandList& operands) { |
| types_.push_back(Instruction{op, operands}); |
| } |
| /// @returns the type instructions |
| const InstructionList& types() const { return types_; } |
| /// Adds an instruction to the annotations |
| /// @param op the op to set |
| /// @param operands the operands for the instruction |
| void push_annot(spv::Op op, const OperandList& operands) { |
| annotations_.push_back(Instruction{op, operands}); |
| } |
| /// @returns the annotations |
| const InstructionList& annots() const { return annotations_; } |
| |
| /// Adds a function to the builder |
| /// @param func the function to add |
| void push_function(const Function& func) { |
| functions_.push_back(func); |
| current_label_id_ = func.label_id(); |
| } |
| /// @returns the functions |
| const std::vector<Function>& functions() const { return functions_; } |
| /// Pushes an instruction to the current function. If we're outside |
| /// a function then issue an internal error and return false. |
| /// @param op the operation |
| /// @param operands the operands |
| /// @returns true if we succeeded |
| bool push_function_inst(spv::Op op, const OperandList& operands); |
| /// Pushes a variable to the current function |
| /// @param operands the variable operands |
| void push_function_var(const OperandList& operands) { |
| if (functions_.empty()) { |
| TINT_ICE(Writer, builder_.Diagnostics()) |
| << "push_function_var() called without a function"; |
| } |
| functions_.back().push_var(operands); |
| } |
| |
| /// Converts a storage class to a SPIR-V storage class. |
| /// @param klass the storage class to convert |
| /// @returns the SPIR-V storage class or SpvStorageClassMax on error. |
| SpvStorageClass ConvertStorageClass(ast::StorageClass klass) const; |
| /// Converts a builtin to a SPIR-V builtin and pushes a capability if needed. |
| /// @param builtin the builtin to convert |
| /// @param storage the storage class that this builtin is being used with |
| /// @returns the SPIR-V builtin or SpvBuiltInMax on error. |
| SpvBuiltIn ConvertBuiltin(ast::Builtin builtin, ast::StorageClass storage); |
| |
| /// Converts an interpolate attribute to SPIR-V decorations and pushes a |
| /// capability if needed. |
| /// @param id the id to decorate |
| /// @param type the interpolation type |
| /// @param sampling the interpolation sampling |
| void AddInterpolationDecorations(uint32_t id, |
| ast::InterpolationType type, |
| ast::InterpolationSampling sampling); |
| |
| /// Generates a label for the given id. Emits an error and returns false if |
| /// we're currently outside a function. |
| /// @param id the id to use for the label |
| /// @returns true on success. |
| bool GenerateLabel(uint32_t id); |
| /// Generates an assignment statement |
| /// @param assign the statement to generate |
| /// @returns true if the statement was successfully generated |
| bool GenerateAssignStatement(const ast::AssignmentStatement* assign); |
| /// Generates a block statement, wrapped in a push/pop scope |
| /// @param stmt the statement to generate |
| /// @returns true if the statement was successfully generated |
| bool GenerateBlockStatement(const ast::BlockStatement* stmt); |
| /// Generates a block statement |
| /// @param stmt the statement to generate |
| /// @returns true if the statement was successfully generated |
| bool GenerateBlockStatementWithoutScoping(const ast::BlockStatement* stmt); |
| /// Generates a break statement |
| /// @param stmt the statement to generate |
| /// @returns true if the statement was successfully generated |
| bool GenerateBreakStatement(const ast::BreakStatement* stmt); |
| /// Generates a continue statement |
| /// @param stmt the statement to generate |
| /// @returns true if the statement was successfully generated |
| bool GenerateContinueStatement(const ast::ContinueStatement* stmt); |
| /// Generates a discard statement |
| /// @param stmt the statement to generate |
| /// @returns true if the statement was successfully generated |
| bool GenerateDiscardStatement(const ast::DiscardStatement* stmt); |
| /// Generates an entry point instruction |
| /// @param func the function |
| /// @param id the id of the function |
| /// @returns true if the instruction was generated, false otherwise |
| bool GenerateEntryPoint(const ast::Function* func, uint32_t id); |
| /// Generates execution modes for an entry point |
| /// @param func the function |
| /// @param id the id of the function |
| /// @returns false on failure |
| bool GenerateExecutionModes(const ast::Function* func, uint32_t id); |
| /// Generates an expression |
| /// @param expr the expression to generate |
| /// @returns the resulting ID of the expression or 0 on error |
| uint32_t GenerateExpression(const ast::Expression* expr); |
| /// Generates the instructions for a function |
| /// @param func the function to generate |
| /// @returns true if the instructions were generated |
| bool GenerateFunction(const ast::Function* func); |
| /// Generates a function type if not already created |
| /// @param func the function to generate for |
| /// @returns the ID to use for the function type. Returns 0 on failure. |
| uint32_t GenerateFunctionTypeIfNeeded(const sem::Function* func); |
| /// Generates access control annotations if needed |
| /// @param type the type to generate for |
| /// @param struct_id the struct id |
| /// @param member_idx the member index |
| void GenerateMemberAccessIfNeeded(const sem::Type* type, |
| uint32_t struct_id, |
| uint32_t member_idx); |
| /// Generates a function variable |
| /// @param var the variable |
| /// @returns true if the variable was generated |
| bool GenerateFunctionVariable(const ast::Variable* var); |
| /// Generates a global variable |
| /// @param var the variable to generate |
| /// @returns true if the variable is emited. |
| bool GenerateGlobalVariable(const ast::Variable* var); |
| /// Generates an index accessor expression. |
| /// |
| /// For more information on accessors see the "Pointer evaluation" section of |
| /// the WGSL specification. |
| /// |
| /// @param expr the expresssion to generate |
| /// @returns the id of the expression or 0 on failure |
| uint32_t GenerateAccessorExpression(const ast::Expression* expr); |
| /// Generates an index accessor |
| /// @param expr the accessor to generate |
| /// @param info the current accessor information |
| /// @returns true if the accessor was generated successfully |
| bool GenerateIndexAccessor(const ast::IndexAccessorExpression* expr, |
| AccessorInfo* info); |
| /// Generates a member accessor |
| /// @param expr the accessor to generate |
| /// @param info the current accessor information |
| /// @returns true if the accessor was generated successfully |
| bool GenerateMemberAccessor(const ast::MemberAccessorExpression* expr, |
| AccessorInfo* info); |
| /// Generates an identifier expression |
| /// @param expr the expresssion to generate |
| /// @returns the id of the expression or 0 on failure |
| uint32_t GenerateIdentifierExpression(const ast::IdentifierExpression* expr); |
| /// Generates a unary op expression |
| /// @param expr the expression to generate |
| /// @returns the id of the expression or 0 on failure |
| uint32_t GenerateUnaryOpExpression(const ast::UnaryOpExpression* expr); |
| /// Generates an if statement |
| /// @param stmt the statement to generate |
| /// @returns true on success |
| bool GenerateIfStatement(const ast::IfStatement* stmt); |
| /// Generates an import instruction for the "GLSL.std.450" extended |
| /// instruction set, if one doesn't exist yet, and returns the import ID. |
| /// @returns the import ID, or 0 on error. |
| uint32_t GetGLSLstd450Import(); |
| /// Generates a constructor expression |
| /// @param var the variable generated for, nullptr if no variable associated. |
| /// @param expr the expression to generate |
| /// @returns the ID of the expression or 0 on failure. |
| uint32_t GenerateConstructorExpression(const ast::Variable* var, |
| const ast::Expression* expr); |
| /// Generates a literal constant if needed |
| /// @param var the variable generated for, nullptr if no variable associated. |
| /// @param lit the literal to generate |
| /// @returns the ID on success or 0 on failure |
| uint32_t GenerateLiteralIfNeeded(const ast::Variable* var, |
| const ast::LiteralExpression* lit); |
| /// Generates a binary expression |
| /// @param expr the expression to generate |
| /// @returns the expression ID on success or 0 otherwise |
| uint32_t GenerateBinaryExpression(const ast::BinaryExpression* expr); |
| /// Generates a bitcast expression |
| /// @param expr the expression to generate |
| /// @returns the expression ID on success or 0 otherwise |
| uint32_t GenerateBitcastExpression(const ast::BitcastExpression* expr); |
| /// Generates a short circuting binary expression |
| /// @param expr the expression to generate |
| /// @returns teh expression ID on success or 0 otherwise |
| uint32_t GenerateShortCircuitBinaryExpression( |
| const ast::BinaryExpression* expr); |
| /// Generates a call expression |
| /// @param expr the expression to generate |
| /// @returns the expression ID on success or 0 otherwise |
| uint32_t GenerateCallExpression(const ast::CallExpression* expr); |
| /// Handles generating a function call expression |
| /// @param call the call expression |
| /// @param function the function being called |
| /// @returns the expression ID on success or 0 otherwise |
| uint32_t GenerateFunctionCall(const sem::Call* call, |
| const sem::Function* function); |
| /// Handles generating an intrinsic call expression |
| /// @param call the call expression |
| /// @param intrinsic the intrinsic being called |
| /// @returns the expression ID on success or 0 otherwise |
| uint32_t GenerateIntrinsicCall(const sem::Call* call, |
| const sem::Intrinsic* intrinsic); |
| /// Handles generating a type constructor or type conversion expression |
| /// @param call the call expression |
| /// @param var the variable that is being initialized. May be null. |
| /// @returns the expression ID on success or 0 otherwise |
| uint32_t GenerateTypeConstructorOrConversion(const sem::Call* call, |
| const ast::Variable* var); |
| /// Generates a texture intrinsic call. Emits an error and returns false if |
| /// we're currently outside a function. |
| /// @param call the call expression |
| /// @param intrinsic the semantic information for the texture intrinsic |
| /// @param result_type result type operand of the texture instruction |
| /// @param result_id result identifier operand of the texture instruction |
| /// parameters |
| /// @returns true on success |
| bool GenerateTextureIntrinsic(const sem::Call* call, |
| const sem::Intrinsic* intrinsic, |
| spirv::Operand result_type, |
| spirv::Operand result_id); |
| /// Generates a control barrier statement. |
| /// @param intrinsic the semantic information for the barrier intrinsic call |
| /// @returns true on success |
| bool GenerateControlBarrierIntrinsic(const sem::Intrinsic* intrinsic); |
| /// Generates an atomic intrinsic call. |
| /// @param call the call expression |
| /// @param intrinsic the semantic information for the atomic intrinsic call |
| /// @param result_type result type operand of the texture instruction |
| /// @param result_id result identifier operand of the texture instruction |
| /// @returns true on success |
| bool GenerateAtomicIntrinsic(const sem::Call* call, |
| const sem::Intrinsic* intrinsic, |
| Operand result_type, |
| Operand result_id); |
| /// Generates a sampled image |
| /// @param texture_type the texture type |
| /// @param texture_operand the texture operand |
| /// @param sampler_operand the sampler operand |
| /// @returns the expression ID |
| uint32_t GenerateSampledImage(const sem::Type* texture_type, |
| Operand texture_operand, |
| Operand sampler_operand); |
| /// Generates a cast or object copy for the expression result, |
| /// or return the ID generated the expression if it is already |
| /// of the right type. |
| /// @param to_type the type we're casting too |
| /// @param from_expr the expression to cast |
| /// @param is_global_init if this is a global initializer |
| /// @returns the expression ID on success or 0 otherwise |
| uint32_t GenerateCastOrCopyOrPassthrough(const sem::Type* to_type, |
| const ast::Expression* from_expr, |
| bool is_global_init); |
| /// Generates a loop statement |
| /// @param stmt the statement to generate |
| /// @returns true on successful generation |
| bool GenerateLoopStatement(const ast::LoopStatement* stmt); |
| /// Generates a return statement |
| /// @param stmt the statement to generate |
| /// @returns true on success, false otherwise |
| bool GenerateReturnStatement(const ast::ReturnStatement* stmt); |
| /// Generates a switch statement |
| /// @param stmt the statement to generate |
| /// @returns ture on success, false otherwise |
| bool GenerateSwitchStatement(const ast::SwitchStatement* stmt); |
| /// Generates a conditional section merge block |
| /// @param cond the condition |
| /// @param true_body the statements making up the true block |
| /// @param cur_else_idx the index of the current else statement to process |
| /// @param else_stmts the list of all else statements |
| /// @returns true on success, false on failure |
| bool GenerateConditionalBlock(const ast::Expression* cond, |
| const ast::BlockStatement* true_body, |
| size_t cur_else_idx, |
| const ast::ElseStatementList& else_stmts); |
| /// Generates a statement |
| /// @param stmt the statement to generate |
| /// @returns true if the statement was generated |
| bool GenerateStatement(const ast::Statement* stmt); |
| /// Generates an expression. If the WGSL expression does not have reference |
| /// type, then return the SPIR-V ID for the expression. Otherwise implement |
| /// the WGSL Load Rule: generate an OpLoad and return the ID of the result. |
| /// Returns 0 if the expression could not be generated. |
| /// @param expr the semantic expression node to be generated |
| /// @returns the the ID of the expression, or loaded expression |
| uint32_t GenerateExpressionWithLoadIfNeeded(const sem::Expression* expr); |
| /// Generates an expression. If the WGSL expression does not have reference |
| /// type, then return the SPIR-V ID for the expression. Otherwise implement |
| /// the WGSL Load Rule: generate an OpLoad and return the ID of the result. |
| /// Returns 0 if the expression could not be generated. |
| /// @param expr the AST expression to be generated |
| /// @returns the the ID of the expression, or loaded expression |
| uint32_t GenerateExpressionWithLoadIfNeeded(const ast::Expression* expr); |
| /// Generates an OpLoad on the given ID if it has reference type in WGSL, |
| /// othewrise return the ID itself. |
| /// @param type the type of the expression |
| /// @param id the SPIR-V id of the experssion |
| /// @returns the ID of the loaded value or `id` if type is not a reference |
| uint32_t GenerateLoadIfNeeded(const sem::Type* type, uint32_t id); |
| /// Generates an OpStore. Emits an error and returns false if we're |
| /// currently outside a function. |
| /// @param to the ID to store too |
| /// @param from the ID to store from |
| /// @returns true on success |
| bool GenerateStore(uint32_t to, uint32_t from); |
| /// Generates a type if not already created |
| /// @param type the type to create |
| /// @returns the ID to use for the given type. Returns 0 on unknown type. |
| uint32_t GenerateTypeIfNeeded(const sem::Type* type); |
| /// Generates a texture type declaration |
| /// @param texture the texture to generate |
| /// @param result the result operand |
| /// @returns true if the texture was successfully generated |
| bool GenerateTextureType(const sem::Texture* texture, const Operand& result); |
| /// Generates an array type declaration |
| /// @param ary the array to generate |
| /// @param result the result operand |
| /// @returns true if the array was successfully generated |
| bool GenerateArrayType(const sem::Array* ary, const Operand& result); |
| /// Generates a matrix type declaration |
| /// @param mat the matrix to generate |
| /// @param result the result operand |
| /// @returns true if the matrix was successfully generated |
| bool GenerateMatrixType(const sem::Matrix* mat, const Operand& result); |
| /// Generates a pointer type declaration |
| /// @param ptr the pointer type to generate |
| /// @param result the result operand |
| /// @returns true if the pointer was successfully generated |
| bool GeneratePointerType(const sem::Pointer* ptr, const Operand& result); |
| /// Generates a reference type declaration |
| /// @param ref the reference type to generate |
| /// @param result the result operand |
| /// @returns true if the reference was successfully generated |
| bool GenerateReferenceType(const sem::Reference* ref, const Operand& result); |
| /// Generates a vector type declaration |
| /// @param struct_type the vector to generate |
| /// @param result the result operand |
| /// @returns true if the vector was successfully generated |
| bool GenerateStructType(const sem::Struct* struct_type, |
| const Operand& result); |
| /// Generates a struct member |
| /// @param struct_id the id of the parent structure |
| /// @param idx the index of the member |
| /// @param member the member to generate |
| /// @returns the id of the struct member or 0 on error. |
| uint32_t GenerateStructMember(uint32_t struct_id, |
| uint32_t idx, |
| const sem::StructMember* member); |
| /// Generates a variable declaration statement |
| /// @param stmt the statement to generate |
| /// @returns true on successfull generation |
| bool GenerateVariableDeclStatement(const ast::VariableDeclStatement* stmt); |
| /// Generates a vector type declaration |
| /// @param vec the vector to generate |
| /// @param result the result operand |
| /// @returns true if the vector was successfully generated |
| bool GenerateVectorType(const sem::Vector* vec, const Operand& result); |
| |
| /// Generates instructions to splat `scalar_id` into a vector of type |
| /// `vec_type` |
| /// @param scalar_id scalar to splat |
| /// @param vec_type type of vector |
| /// @returns id of the new vector |
| uint32_t GenerateSplat(uint32_t scalar_id, const sem::Type* vec_type); |
| |
| /// Generates instructions to add or subtract two matrices |
| /// @param lhs_id id of multiplicand |
| /// @param rhs_id id of multiplier |
| /// @param type type of both matrices and of result |
| /// @param op one of `spv::Op::OpFAdd` or `spv::Op::OpFSub` |
| /// @returns id of the result matrix |
| uint32_t GenerateMatrixAddOrSub(uint32_t lhs_id, |
| uint32_t rhs_id, |
| const sem::Matrix* type, |
| spv::Op op); |
| |
| /// Converts AST image format to SPIR-V and pushes an appropriate capability. |
| /// @param format AST image format type |
| /// @returns SPIR-V image format type |
| SpvImageFormat convert_image_format_to_spv(const ast::ImageFormat format); |
| |
| /// Determines if the given type constructor is created from constant values |
| /// @param expr the expression to check |
| /// @returns true if the constructor is constant |
| bool IsConstructorConst(const ast::Expression* expr); |
| |
| private: |
| /// @returns an Operand with a new result ID in it. Increments the next_id_ |
| /// automatically. |
| Operand result_op(); |
| |
| /// @returns the resolved type of the ast::Expression `expr` |
| /// @param expr the expression |
| const sem::Type* TypeOf(const ast::Expression* expr) const { |
| return builder_.TypeOf(expr); |
| } |
| |
| /// Generates a scalar constant if needed |
| /// @param constant the constant to generate. |
| /// @returns the ID on success or 0 on failure |
| uint32_t GenerateConstantIfNeeded(const ScalarConstant& constant); |
| |
| /// Generates a constant-null of the given type, if needed |
| /// @param type the type of the constant null to generate. |
| /// @returns the ID on success or 0 on failure |
| uint32_t GenerateConstantNullIfNeeded(const sem::Type* type); |
| |
| /// Generates a vector constant splat if needed |
| /// @param type the type of the vector to generate |
| /// @param value_id the ID of the scalar value to splat |
| /// @returns the ID on success or 0 on failure |
| uint32_t GenerateConstantVectorSplatIfNeeded(const sem::Vector* type, |
| uint32_t value_id); |
| |
| ProgramBuilder builder_; |
| std::string error_; |
| uint32_t next_id_ = 1; |
| uint32_t current_label_id_ = 0; |
| InstructionList capabilities_; |
| InstructionList extensions_; |
| InstructionList ext_imports_; |
| InstructionList memory_model_; |
| InstructionList entry_points_; |
| InstructionList execution_modes_; |
| InstructionList debug_; |
| InstructionList types_; |
| InstructionList annotations_; |
| std::vector<Function> functions_; |
| |
| std::unordered_map<std::string, uint32_t> import_name_to_id_; |
| std::unordered_map<Symbol, uint32_t> func_symbol_to_id_; |
| std::unordered_map<sem::CallTargetSignature, uint32_t> func_sig_to_id_; |
| std::unordered_map<std::string, uint32_t> type_name_to_id_; |
| std::unordered_map<ScalarConstant, uint32_t> const_to_id_; |
| std::unordered_map<std::string, uint32_t> type_constructor_to_id_; |
| std::unordered_map<std::string, uint32_t> const_null_to_id_; |
| std::unordered_map<uint64_t, uint32_t> const_splat_to_id_; |
| std::unordered_map<std::string, uint32_t> |
| texture_type_name_to_sampled_image_type_id_; |
| ScopeStack<uint32_t> scope_stack_; |
| std::unordered_map<uint32_t, const ast::Variable*> spirv_id_to_variable_; |
| std::vector<uint32_t> merge_stack_; |
| std::vector<uint32_t> continue_stack_; |
| std::unordered_set<uint32_t> capability_set_; |
| bool has_overridable_workgroup_size_ = false; |
| |
| struct ContinuingInfo { |
| ContinuingInfo(const ast::Statement* last_statement, |
| uint32_t loop_header_id, |
| uint32_t break_target_id); |
| // The last statement in the continiung block. |
| const ast::Statement* const last_statement = nullptr; |
| // The ID of the loop header |
| const uint32_t loop_header_id = 0u; |
| // The ID of the merge block for the loop. |
| const uint32_t break_target_id = 0u; |
| }; |
| // Stack of nodes, where each is the last statement in a surrounding |
| // continuing block. |
| std::vector<ContinuingInfo> continuing_stack_; |
| |
| // The instruction to emit as the backedge of a loop. |
| struct Backedge { |
| Backedge(spv::Op, OperandList); |
| Backedge(const Backedge&); |
| Backedge& operator=(const Backedge&); |
| ~Backedge(); |
| |
| spv::Op opcode; |
| OperandList operands; |
| }; |
| std::vector<Backedge> backedge_stack_; |
| }; |
| |
| } // namespace spirv |
| } // namespace writer |
| } // namespace tint |
| |
| #endif // SRC_WRITER_SPIRV_BUILDER_H_ |